CN104736863A

CN104736863A - Self-lubricating connecting element made of composite material and operating under high dynamic loads

Info

Publication number: CN104736863A
Application number: CN201380054408.0A
Authority: CN
Inventors: 伊曼纽尔·马斯; 奥利维尔·布兰德内特; 菲利普·毛林-佩里耶
Original assignee: H EF Co
Current assignee: H EF Co
Priority date: 2012-10-22
Filing date: 2013-10-15
Publication date: 2015-06-24
Anticipated expiration: 2033-10-15
Also published as: AU2013336453A1; RU2015114823A; CA2888681A1; DK2909491T3; EP2909491B1; JP6297048B2; MX367487B; ES2673850T3; CA2888681C; WO2014064367A1; BR112015008952B1; HUE039326T2; CN104736863B; TR201808468T4; MX2015005057A; AU2013336453B2; FR2997146A1; EP2909491A1; AR093090A1; KR102088226B1

Abstract

The elements are formed by the winding of a thin fabric having a thickness ranging between 20 μm and 150 μm and mixed with a resin containing fillers, said fabric taking the form of strips having a width ranging between 5mm and 200mm, said strips crossing in a plurality of layers.

Description

Be made up of composite material and the selflubricating connecting element operated under high dynamic load

The present invention relates to the technical field of selflubricating connected member.

The present invention is advantageously applied to all types of connected member needing non lubricant oil to operate (that is, using selflubricating operation) and operate under dynamic high capacity.

The object of the invention is to obtain the selflubricating connected member be made up of polymer, and described selflubricating connected member is uniform across its integral thickness, and without enhancing substrate, and operating under dynamic high capacity (such as, being greater than 60MPa).

According to the state of the art, due to the composition polymer connected member of this type bad load performance and (comprise the load lower than 60MPa) under dynamic loading flowing and peel off risk, the composition polymer connected member of this type is not entirely satisfactory.Such as, according to the state of the art, joint element can be obtained by the winding of the synthetic textiles mixed with the thermosetting property or thermoplastic resin of epoxy resin, polyester or other types, and fabric thickness is about 300 μm.Fabric presents with the form of the several layers of bar formed, to obtain the thickness of expectation, and such as 3 layers.

The object of the invention is with simple, reliable, effectively and reasonable manner overcomes these shortcomings.

The problem that the present invention is intended to solve obtains the polymer-type connected member that can operate under the high dynamic load being greater than 60MPa.

According to the present invention, joint element by there is the little thickness of scope between 20 μm and 150 μm and preferably between 20 μm and 130 μm and with being wound of fabric of mixed with resin comprising bulking agent, described fabric presents the form of the bar with the width of scope between 5mm and 200mm, according to Filament-wound Machine technology, described bar intersects in multiple layer.

This category feature provides good uniformity by adopting thinner bar, and provides the good resistance of tangent direction friction stress due to the intersection of the layer of the fabric of formation material.

This also causes the good static load performance of the good dynamic load performance owing to the intersection of bar and the better uniformity owing to material.

Advantageously, crossing angle scope between 10 ° and 90 °, and preferably between 30 ° and 86 °.

According to other features, resin is epoxy type, vinyl ester type, polyester type, phenol aldehyde type, polyimide type or other types, and bulking agent is PTFE, MoS ₂or graphite mould.

It should be noted, bulking agent accounts between 5% of volume and 70%.

After this present invention is discussed in detail further by means of accompanying drawing, wherein:

Fig. 1 shows the winding of the fabric of the little thickness according to feature of the present invention;

Fig. 2 is that display is wound around to obtain the pole reduced graph determining thickness according to the fabric of related domain prior art level;

Fig. 3 is the figure being similar to Fig. 2, and its display is wound around according to fabric according to the present invention identically determines thickness to obtain.

According to the present invention, the selflubricating joint element of such as ring is such as made up of the winding of the synthetic textiles with the little thickness of scope between 20 μm and 150 μm and advantageously between 20 μm and 130 μm.

Present the fabric of the form of shaping and the mixed with resin of epoxy resin, vinyl ester resin, polyester resin, phenolic resin, polyimide resin or other types.

This resin comprises and having about from PTFE, MoS of 5% to 70% volume ₂, graphite mould or other types bulking agent.Object obtains across the uniform product of its integral thickness.

Fabric strip has the width of scope between 5mm and 200mm, and is wrapped according to Filament-wound Machine technology and determines in the axle of diameter.

Bar is wound around with several layers and intersects, crossing angle scope between 10 ° and 90 °, and advantageously between 30 ° and 86 °.

Should with reference to figure 3, contrast with being wound around with the form of 3 synusia of 300 μm according to the state of the art, it illustrates and be wound around with the form of 9 synusia of 100 μm.

It should be noted, intention can be made up of TAFFETA (taffeta), satin, twilled cloth or cloth with the fabric of mixed with resin, and does not get rid of other fibre textiles.

Should with reference to following test when being the selflubricating composition ring form receiving 16NC 6CT Ra:04 feature axis at connected member.

-shank diameter: 30mm

The width of-guide member: 20mm

-motion: alternately rotate over 90 °

The pressure calculated in-outburst area: 80MPa

-Sliding velocity: 8mm/s

-friction factor >0.25

Test has following result:

the prior art level of related domain

-with 90 ° of windings

The thickness of the fabric strip of-use: 1,200mm

-fabric thickness: 0.30mm

-by the external diameter of the ring of acquisition: 36mm

The wearing and tearing >0.5mm of-acquisition

-friction factor <0.2mm

-cycle-index: 30,000.

according to feature of the present invention

-cross winding

The width of the fabric strip of-use: 30mm

-fabric thickness: 0.10mm

-by the external diameter of the ring of acquisition: 36mm

The wearing and tearing of-acquisition: 0.4mm

-friction factor <0.1mm

-cycle-index: 365,000.

Claims

1. a selflubricating joint element, described selflubricating joint element operates under dynamic high capacity, it is characterized in that it is by having the little thickness of scope between 20 μm and 150 μm and being formed across the uniform product of its integral thickness to be formed with the winding of fabric of the mixed with resin comprising bulking agent, described fabric presents the form of the bar with the width of scope between 5mm and 200mm, and described bar is intersected in multiple layer by Filament-wound Machine.

2. element as claimed in claim 1, is characterized in that described fabric thickness scope is between 20 μm and 130 μm.

3. element as claimed in claim 1, is characterized in that crossing angle scope is between 10 ° and 90 °.

4. element as claimed in claim 1, is characterized in that crossing angle scope is between 30 ° and 86 °.

5. element as claimed in claim 1, is characterized in that described fabric is synthesis type.

6. element as claimed in claim 1, is characterized in that described resin is epoxy type, vinyl ester type, polyester type, phenol aldehyde type, polyimide type.

7. element as claimed in claim 1, is characterized in that described bulking agent is PTFE type, MoS ₂type or graphite mould.

8. element as claimed in claim 7, is characterized in that described bulking agent accounts between 5% of volume and 70%.